Patient-model-based determination of a stimulation of a magnetic resonance imaging

The invention claimed is: 1. A method for determining a peripheral nerve stimulation during a magnetic resonance (MR) imaging of a patient in a MR scan unit for a MR pulse sequence, the method comprising: determining, by a stimulation determining device, a plurality of model-based candidate stimulations as a function of a unit vector potential of a gradient magnetic field generated during the MR imaging and candidate models for different object parameter values; selecting, by the stimulation determining device, a model-based candidate stimulation as a stimulation model for the patient depending on an individual patient model for the patient, which is determined depending on the object parameter values of the patient; determining, by the stimulation determining device, a distribution of a vector potential of the gradient magnetic field acting on the patient, generated during MR imaging, as a function of a unit gradient current for a determined position of the patient in the MR scan unit; and determining, by the stimulation determining device, the peripheral nerve stimulation of the patient for the determined position based on the selected model-based candidate stimulation, the determined vector potential acting on the patient, and a gradient current of a gradient pulse of the MR pulse sequence. 2. The method of claim 1 , wherein, in the determining of the model-based candidate stimulations, a virtual interface cylinder is placed around a candidate model and location-dependent stimulation values for partial surfaces of the virtual interface cylinder are determined. 3. The method of claim 2 , wherein the determined model-based candidate stimulations are determined based on a sum of the plurality of model-based candidate stimulations assigned to the partial surfaces of the virtual interface cylinder. 4. The method of claim 1 , wherein the individual patient model is generated as a function of one or more individual object parameter values comprising: a size of the patient, a weight of the patient, a fat distribution of the patient, a muscle distribution of the patient, a body mass index of the patient, a sex of the patient, or combinations thereof. 5. The method of claim 1 , wherein the stimulation of the patient is determined for the determined position by multiplication of: (1) the selected model-based candidate stimulation, (2) the determined vector potential acting on the patient, and (3) the gradient current of the gradient pulse of the MR pulse sequence. 6. The method of claim 1 , wherein the distribution of a vector potential acting on the patient is arranged on a cylindrical surface around the patient. 7. The method of claim 1 , wherein the individual patient model is selected for individual MR imaging by comparing individual patient data with the candidate models. 8. The method of claim 7 , wherein the individual patient data comprises the object parameter values of the patient. 9. The method of claim 7 , wherein, when none of the candidate models correspond to the individual patient data with sufficient accuracy, an interpolation between two candidate models is performed and an interpolated candidate model is generated as a patient model. 10. The method of claim 1 , further comprising: determining a maximum gradient strength of the MR pulse sequence, at which an allowed maximum patient stimulation is not exceeded; and adapting the MR pulse sequence to the determined maximum gradient strength. 11. The method of claim 10 , further comprising: generating the MR pulse sequence, gradients of which do not exceed the allowed maximum patient stimulation; stimulating an area to be examined of the patient using the generated MR pulse sequence; acquiring magnetic resonance signals; and reconstructing image data based on the acquired magnetic resonance signals. 12. A stimulation determination device comprising: a candidate model determination unit configured to determine a plurality of model-based candidate stimulations as a function of a unit vector potential and candidate models for different patients; a selection unit configured to select a model-based candidate stimulation as a stimulation model for a patient depending on an individual patient model for the patient, which is determined depending on object parameter values of the patient; a vector potential determination unit configured to determine a distribution of a vector potential of a gradient magnetic field, acting on the patient, generated during magnetic resonance (MR) imaging as a function of a unit gradient current for a determined position of the patient in a MR scan unit; and a stimulation determination unit configured to determine a nerve stimulation of the patient for the determined position based on the selected model-based candidate stimulation, the determined vector potential acting on the patient, and a gradient current of a gradient pulse of a MR pulse sequence. 13. A pulse sequence optimization device comprising: an input interface configured to receive parameter values of a patient and a position of the patient in a scanner of a magnetic resonance (MR) system; a stimulation determining device configured to: determine a plurality of model-based candidate stimulations as a function of a unit vector potential and candidate models for different patients; select a model-based candidate stimulation as a stimulation model for the patient depending on an individual patient model for the patient, which is determined depending on object parameter values of the patient; determine a distribution of a vector potential of a gradient magnetic field, acting on the patient, generated during MR imaging as a function of a unit gradient current for a determined position of the patient in the scanner of the MR system; and determine a nerve stimulation of the patient for the determined position based on the selected model-based candidate stimulation, the determined vector potential acting on the patient, and a gradient current of a gradient pulse of a pulse sequence; a gradient strength determination unit configured to determine a maximum gradient current strength of the pulse sequence, in which an allowed maximum patient stimulation is not exceeded, based on the determined patient stimulation; and a pulse sequence optimization unit configured to adapt the pulse sequence to the determined maximum gradient strength based on the determined maximum gradient current strength. 14. A magnetic resonance (MR) imaging system comprising: a high-frequency transmission system; a gradient system; a control device configured to control the high-frequency transmission system and the gradient system based on a pulse sequence in order to carry out a desired measurement; and a pulse sequence optimization device configured to adapt the pulse sequence to a patient, the pulse sequence optimization device comprising: an input interface configured to receive parameter values of the patient and a position of the patient in a scanner of the MR imaging system; a stimulation determining device configured to: determine a plurality of model-based candidate stimulations as a function of a unit vector potential and candidate models for different patients; select a model-based candidate stimulation as a stimulation model for the patient depending on an individual patient model for the patient, which is determined depending on object parameter values of the patient; determine a distribution of a vector potential of a gradient magnetic field, acting on the patient, generated during MR imaging as a function of a unit gradient current for a determined position of the patient in the scanner of t